Suppose that a projectile is launched at a height from the surface of the Earth (idealized here as a perfect sphere). If the initial velocity () or the height is not large enough, the projectile can not travel very far during the time , subject to its gravitational attraction. However, with a larger velocity, the projectile can travel a considerable distance around the Earth, and even remain in elliptical orbit if the velocity is large enough.

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This provides an explanation of why astronauts appear to be "floating" in a space shuttle. What really happens is that the shuttle, along with the astronauts, are in free fall toward the Earth simultaneous to their horizontal motion.

If the projectile exceeds the escape velocity, it can go into orbit. The same considerations apply to other celestial bodies, such as a moon or an asteroid.